沙化土地信息提取研究

采用LandsatETM 多时相影像,在地类光谱特征分析的基础上,用分层分离的方法,提取出沙化土地信息。以全国沙漠化普查地类划分标准中的植被覆盖度为确定沙化土地程度的依据,通过建立NDVI和实测植被覆盖度的回归模型,确定不同程度沙化土地对应的植被覆盖度与NDVI的对应关系,用NDVI阈值进行划分,得到沙化土地程度图。     

森林资源调查中Spot5卫星影像的处理方法

利用Spot5卫星进行森林资源调查时,首先要对遥感图像进行处理。文章介绍了处理环境对硬件和软件的要求。其处理过程包括影像配准、分辨率融合、影像拼接、色彩增强、分幅输出等。对其中的一些问题提出了个人见解。     

基于迁移学习的无人机影像耕地信息提取方法

随着精准农业技术的发展,对农作物用地信息快速、准确提取的需求越来越高。同时,无人机技术以其方便、高效、具有低空云下飞行能力等优势被广泛应用于自然资源的调查中。但无人机影像普遍光谱信息较为匮乏,因此很难准确、快速地提取出耕地信息。基于此,提出了一种利用迁移学习机制的耕地提取方法(TLCLE)。首先,利用深度卷积神经网络(DCNN)剔除线状地物(道路、田埂等),然后,通过引入迁移学习机制将DCNN特征训练过程中得到的特征提取方法迁移到耕地提取中,最后,将所提方法与利用易康(e Cognition)软件进行耕地提取(ECLE)结果进行对比。研究结果表明:对于实验影像1、2,TLCLE方法耕地提取总体精度分别为91.9%、88.1%,ECLE方法总体精度分别为90.3%、88.3%,2种方法提取精度相当,在保证耕地地块完整、连续性上TLCLE方法优于ECLE方法。     

《机械制造技术》多媒体教学的问题与对策

《机械制造技术》采用多媒体教学,图片和视频资料都能很好的展示在课堂上,使得教学更生动有趣,内容更充实。但多媒体教学中也存在一些问题,通过教学中正确有效地应用动画技术来解决,不仅使教学即内容充实,又能重点突出,主次分明,层次清晰。     

基于回归与随机模拟的区域森林碳分布估计方法比较

以临安市为例,利用2004年森林资源清查样地数据和同年度Landsat TM影像数据,采用一元二次非线性回归和序列高斯协同模拟方法分别模拟森林地上部分碳密度及其分布,并对模拟结果进行比较分析。结果表明:一元二次非线性回归估计得研究区森林碳储量为2365404.37t,碳密度平均值为9.0000t·hm-2,最大值为73.7144t·hm-2,最小值为0.7156t·hm-2;序列高斯协同模拟得研究区森林碳储量为3291659.83t,碳密度平均值为12.5233t·hm-2,最大值为78.9133t·hm-2,最小值为0.0833t·hm-2;根据2004年森林资源清查样地数据,按随机抽样方法估计研究区森林碳储量为2708897.90t,样地碳密度平均值为10.3065t·hm-2,其最大值为96.9625t·hm-2,最小值为0;序列高斯协同模拟结果更接近地面样地估计结果,而且碳密度分布范围更合理;一元二次非线性回归估计结果与地面样地估计结果之差的累积平方和为9857.4619,而序列高斯协同模拟结果与实测结果之差的累积平方和为8018.4625;序列高斯协同模拟较一元二次非线性回归在估计区域森林碳空间分布...     

辽宁动漫游戏产业发展问题及对策研究

动漫产业被誉为21世纪最具发展潜力的朝阳产业之一。近年来,辽宁动漫产业发展迅猛,取得了巨大的成就。但对辽宁动漫产业发展现状进行分析后发现仍存在诸多问题。在世界经济格局重新调整的契机下,实施有效的发展战略是辽宁动漫游戏产业发展的根本保证。     

Random point sampling to detect gain and loss in tree canopy cover in response to urban densification

Urban tree canopy cover (UTC) is a simple, and common, measure of urban forest resource. Urban infill development is likely to lead to losses in UTC under private tenure, at a time when local governments are setting ambitious targets to increase UTC overall. Simple, statistically rigorous methods are required to benchmark and track change in UTC, whilst identifying which land-use types or tenures experience change.We estimated UTC in six Melbourne suburbs in 2010 and 2015 by randomly sampling 2000 points across public land, public streetscapes and private land. We were able to detect a net change in UTC of <2% over five years to a 95% level of confidence. A significant net decrease in UTC (−2.4%) was only detected in one of the six suburbs. Two suburbs had a net increase in UTC by +2.7% over five years. On private land, there was often areas of UTC loss, but this was generally offset by canopy gain in other areas of the private realm as well as in streetscapes and public land. Losses in UTC on private land were mainly due to tree removal, with or without subsequent construction works.This study describes a simple, but statistically rigorous, method to quantify UTC change and the drivers of change in different land-use types and tenure. Despite studying two suburbs will high rates of infill development, only one suburb showed evidence of net UTC decrease. The ‘dynamic equilibrium’ in UTC, whereby canopy losses area approximately offset by concurrent canopy gain, means that ambitious targets being set by local governments to increase UTC may be difficult to achieve without changes in tree protection and infill development policy and planning.     

Automated identification of sugar beet diseases using smartphones

Cercospora leaf spot (CLS) poses a high economic risk to sugar beet production due to its potential to greatly reduce yield and quality. For successful integrated management of CLS, rapid and accurate identification of the disease is essential. Diagnosis on the basis of typical visual symptoms is often compromised by the inability to differentiate CLS symptoms from similar symptoms caused by other foliar pathogens of varying significance, or from abiotic stress. An automated detection and classification of CLS and other leaf diseases, enabling a reliable basis for decisions in disease control, would be an alternative to visual as well as molecular and serological methods. This paper presents an algorithm based on a RGB‐image database captured with smartphone cameras for the identification of sugar beet leaf diseases. This tool combines image acquisition and segmentation on the smartphone and advanced image data processing on a server, based on texture features using colour, intensity and gradient values. The diseases are classified using a support vector machine with radial basis function kernel. The algorithm is suitable for binary‐class and multi‐class classification approaches, i.e. the separation between diseased and non‐diseased, and the differentiation among leaf diseases and non‐infected tissue. The classification accuracy for the differentiation of CLS, ramularia leaf spot, phoma leaf spot, beet rust and bacterial blight was 82%, better than that of sugar beet experts classifying diseases from images. However, the technology has not been tested by practitioners. This tool can be adapted to other crops and their diseases and may contribute to improved decision‐making in integrated disease control.     

基于遥感影像的县域冬小麦种植信息提取

冬小麦是陕西省关中地区重要的粮食作物。本研究以陕西省武功县为例,使用Landsat8 OLI影像作为数据源,综合使用NDVI阈值分割和决策树分类技术提取了武功县2017年冬小麦种植区域,并对各乡镇冬小麦种植面积和空间分布信息进行统计分析。结果表明：（1）在本研究区,冬小麦越冬期结合油菜开花期是利用遥感影像提取冬小麦种植信息的最佳时期组合;（2）运用NDVI阈值分割法结合决策树分类从OLI影像提取冬小麦种植面积的精度达到93%以上;（3）武功县2017年冬小麦种植面积为21 181.97 hm²,下辖各乡镇中长宁和贞元两镇冬小麦种植面积较大,分别占总面积的24%和19%;在县域尺度上,使用遥感技术提取的冬小麦种植面积和空间分布信息是准确可靠的。     

近30年北京市高尔夫球场时空变化特征

以北京市1986-2010年Landsat TM/ETM+遥感影像为基础,通过数字化和影像解译获取北京市75个面积大于6 hm²的高尔夫球场数据,并利用土地利用/土地覆盖数据和地理要素数据(道路、行政区划、水域等),从时空角度研究近30年北京市高尔夫球场的时空变化特征。结果表明,1)1986年至2010年,北京市高尔夫球场经历了“初步建立、停滞发展、缓慢发展和迅速发展”的变化过程,其中1990-1999年期间高尔夫球场处于停滞发展期,2000-2005年出现缓慢发展,2005年之后迅速增长。2)并非所有高尔夫球场均呈面积增加趋势,而是具有空间差异性。3) 高尔夫球场面积变化与土地利用/土地覆盖类型变化高度相关,高尔夫球场变化趋势和土地利用动态度的变化趋势保持着一致性。4)北京市高尔夫球场主要沿着具有紧邻中心城区、滨临河湖、临近快速交通线的优势空间区位分布,特别是“一环两带”地区。